Prof. Z.A. Mansurov - Conference Series€¦ · •At present oil producing sector has a leading...
Transcript of Prof. Z.A. Mansurov - Conference Series€¦ · •At present oil producing sector has a leading...
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PROCESSING OF HEAVY OILS AND OIL SANDS
Prof. Z.A. Mansurov
1 December, 2015
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�������� Introduction;� Oil sands of Kazakhstan deposits;� Problems of processing of oil sands;� Obtaining of synthetic oils;� Ultrasonic methods for separation of organic and mineral parts;� Composites with rubber crumb;� Bio-remediation of oil-contaminated soils.
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Total world oil reservesConventional oil is a mixture of mainly pentanes andheavier hydrocarbons.Unconventional oil is petroleum produced or extractedusing techniques other than the conventional (oil well)method. Unconventional oil included extra-heavy oil, oilsands, kerogen oil, shale oil. It is in semi-solid formmixed with sand and water, as in the Athabasca oilsands in CanadaHeavy crude oil is oil that is highly viscous, and cannoteasily flow to production wells under normal reservoirconditions. It is referred to as "heavy" becauseits density or specific gravity is higher than that of lightcrude oil.Extra heavy crude oil is oil that is highly viscous, andcannot easily flow to production wells under normalreservoir conditions, too. Venezuela has large amounts ofoil in the Orinoco oil sands, although the hydrocarbonstrapped in them are more fluid than in Canada and areusually called extra heavy oil.
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At present oil producing sector has a leading position in the structure of national economy ofKazakhstan.
Over 50 fields of oil sands (oil-bituminous sands, tar sands, extra heavy oil) have been discovered inKazakhstan. Canada and Venezuela are currently the most successful producer for unconventional oilproduction.
Oil bitumen are widely used in many industries, therefore their production is the important economicproblem and requires constant perfection.
The main problem with road building is the poor quality of bitumen used in asphalt-concrete pavements.
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Graphic of bitumen consumption
ACTUALITY OF RESEARCH
Oil sands in Kazakhstan
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Oil sand of Western Kazakhstan
Oil sands is fossil fuels, an organic part of which represents a natural bitumen (NB).The reserves of the oil sand in the Western Kazakhstan is very significant and attract them as a valuable material for road construction, the pace is increasing, It is an urgent task, a decision which will reduce the cost road construction in general.
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Object and Purpose of the research . Production of Rubber-Bitumen Compoundsbased on rubber crumb from worn tires
BND 60/90 paving bitumen
Rubber crumb: ( from Kazakhstan Rubber Recycling LLP )
Spent engine oil based modifier
Optical microscope images of rubber crumb
SEM images of rubber crumb
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Microwaves and radio frequency applications in oil sands of Canada
There are 1.7 trillion barrels of bitumen in place in Canadian oil sandsand the resource will become a major source of petroleum products in thenear future. Extra heavy oil has been commercially produced fromAlberta’s massive oil sands resources for four decades. Through theevolution of technology, the efficiency and performance of oil sandsextraction, separation and upgrading technology has advanced, whileoperating costs have fallen. In 2005, Alberta produced more than 1 millionbarrels per day of upgraded crude oil and bitumen from oil sands, andprojections are that over three million barrels per day could be produced in2030.
The evolution of Alberta’s oil sands industry contributes bothtechnology and lessons learned to guide further development of NorthAmerica’s heavy oil resources.
In 2003, samples of Lloydminster oil sands (oilwatersoli ds ratio of19: 40: 41) considered particularly stubborn to separation were tested withexposure to variable frequency microwaves.
Sateesh Mutyala et. al. Microwave applications to oil sands and petroleum: A review. Fuel Processing Technology. 91. (2010). 127135.
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Multi-mode Heating Apparatus [2]
1. Self-turning Single-mode cavity in DiscovererTM system by CEM Corporation2. http://www.pueschner.com/engl/basics/index.html
Single-mode Heating Apparatus [1]
Microwave Chemistry Apparatus
The factor that governs the design of a single-mode apparatus is the distance of the sample from the magnetron. This distance
should be appropriate to ensure that the sample is placed at the antinodes of the standing electromagnetic wave pattern
An essential feature of a multi-mode apparatus is the deliberate avoidance of generating a standing
wave pattern inside it.
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STUDY AND PROCESSING OF OIL SANDS
1-reflux condenser, Soxhlet apparatus3-flask, 4- heating plate, 5-upright
� Solvents Molecular formula Boiling point, 0C1 Hexane C6H14 692 Toluene C7H8 1113 Benzene C6H6 80.14 Ethanol C2H6O 78.37
Characteristics of solvents
Oil sand samples Characteristics NB extracted by hexane
NB extracted by toluene
NB extracted by the ethanol and benzene mixture
Munayli-Mola OS Organic part, wt% 15.5 16.5 15.9Density, g/cm3 0.997 1.090 0.987Heating value, j/g 43006 42464 41857
Beke OS Organic part, wt% 10.6 11.3 11.2Density, g/cm3 0.917 0.925 1.002Heating value, j/g 42728 43264 42536
Physical and chemical properties of natural bitumen
Research object Methods Contents
Munayli-Mola oil sands
Extraction method
Extracted oil, wt. % After extracted sands, wt. %
16 84Determination of ash content
Organic part, wt. % Ash content, wt. %16.7 83.3
Comparison results of ash content determination and extraction
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Type of bitumen Ash content. wt. %
Content, wt. %C H S N O
Munayli-Mola oil sands
Natural bitumen extracted by hexane 0.082 84.36 12.16 1.294 0.29 1.814
Natural bitumen extracted by toluene 1.3 85.00 12.34 1.010 0.30 0.15
Natural bitumen extracted by ethanol/benzene
0.13 84.69 11.39 1.292 0.38 2.118
Standard paving bitumen BND 60/90 0.167 84.91 11.01 3.050 0.52 0.343
Beke oil sands
Natural bitumen extracted by hexane 1.02 85.25 11.54 0.436 0.44 1.214Natural bitumen extracted by toluene 1.17 84.49 11.39 0.482 0.47 1.998
4000,0 3600 3200 2800 2400 2000 1800 1600 1400 1200 1000 800 600 450,0
3,25
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100,0
cm-1
%T
2853,34
1706,44
1603,62
1461,19
1376,77
1031,84
874,95
813,99721,48
536,58469,34
Elemental composition of bitumens
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MINERAL PART OF OIL SANDS
Sample Name of the composition
Chemical formula
Content, %
Mineral aggregates of Munayli-Mola OS after extracted by hexane
Quartz SiO2 79.1Albite NaAlSi3O8 11.8Microcline KAlSi3O8 9.0Footprints of carbon C 0.1Total 100
Mineral aggregates of Munayli-Mola OS after extracted by toluene
Quartz SiO2 72.1Albite NaAlSi3O8 14.1Microcline KAlSi3O8 13.8Footprints of carbon C 0Total 100
Mineral aggregates of Munayli-Mola OS after extracted by B/E mixture
Quartz SiO2 75.5Albite NaAlSi3O8 11.2Microcline KAlSi3O8 13.3Footprints of carbon C 0Total 100
SEM image of oil sand’s mineral partElement Concentration, % Intensity, cps
Fe 0.349 3.95K 1.270 2.26Ca 60.304 255.13S 29.799 17.78
Cl2 3.987 2.24P 3.773 1.09Sr 0.329 3.85Mn 0.189 1.58
Elemental composition of clay minerals of oil sand
Oil sand’s mineral composition
Optical microscopic image of clay mineral composition 6
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MICROSCOPIC STUDY OF OIL SAND STRUCTURE
SEM image of oil sand Optical microscopic images of Beke oil sands
7Dwijen K. Banerjee , 2012
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THERMAL PROCESSING OF OIL SANDS
Parameters ContentsYield of products, wt. %Gaseous 2.4Liquid 9.6Solid residue 88.0Characteristics of the liquid fraction:Density, g/cm3
Ash, %Flash point, � �
0.8620.3842
Fractional composition, wt. %:Boiling point 180 ° �180-250° �250-350° �350- end of boiling
19.624.033.023.4
Parameters ContentsYield of products, wt. %Gaseous 1.5Liquid 13.5Solid residue 85Fractional composition, wt. %:Boiling point 180 ° �180-250° �250-350° �350- end of boiling
6.115.146.828.8
Thermal processing products of Beke oil sand
Thermal processing products of Munayli-Mola oil sand
Scheme of apparatus for the thermal processing oil sands1 cylindrical reactor, 2 tube, 3 Perforateddiaphragm, 4 raw material, 5 connecting pipe foroutput gas and products, 6 refrigerator, 7 electricfurnace, 8 thermoregulator, 9 receptacle.
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Parameters The initial sample
Gasoline fraction 80-180 °�
Diesel fraction 180-250 °�
Gasoil fraction 250-320 °�
Octane number - 80 not defined not definedCetane number - - above 45 not definedFlash, °� - - 35-40 -Density at 20 °� , kg/m3 0,870 0,754 0.817 0.864
Pour point, °� -40 not defined -50-55 -45Filterability temperature limit, ° �
above -35-40 not defined above -40 above -25
Benzene volume, % - 1 not defined not defined
CHARACTERISTICS OF SYNTHETIC OIL PRODUCED FROM BEKE BITUMEN
Pilot installation for thermal processing of oil sands
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VACUUM DISTILLATION OF HYDROGENATED OIL
Characteristics 1st fractions 2nd fractions
Vacuum residue
Temperature, ° C
Initial boiling point - 215
216 -316
316 -
Pressure, mbar 808 805 - 60 60 -
Mass of fractions, g
24.64 85.78 77.37
Yield of fractions, %
13.12 45.68 41.20
Image of vacuum distillation products1 1st fraction, 2 2nd fraction, Without number Vacuum r esidue
Oil fractions at
Characteristics
I.B. 215° C
216 316° C
316 ° C E.B.
Pressure,mbar
808 805 - 60 60 -
Mass offraction, g
80.39 72.72 43.88
Yield offraction, %
40.81 36.91 22.27
DENSITY AND ASH CONTENT
Characteristics\ samples
Natural bitumen
Hydrogenated oil
Density, g/cm3
0.921 0.89
Medium ashcontent, wt. %
1.1 0.2
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PRODUCTION OF OXIDIZED BITUMEN FROM NATURAL BITUMEN OF BEKE OIL SAND
Name of the indicators Sample� 1 BND 90/130 Sample 2 BND 40/60 Sample� 3
Penetration at 25 ° � , 0,1 mm 115 91-130 46 40-60 30Softening point, ° � 44 not less than 43 52 not less than 51 65Ductility, cm 76 at least 65 45 at least 45 8
Flash point, ° � 237 not less than 230 235 not less than 230 220
Name of the indicators Sample� 1 BND 60/90 Sample � 2 BND 40/60 Sample� 3 BN 70/30Penetration at 25 ° � , 0,1 mm
62 61-90 43 40-60 29 21-40
Softening point, ° � 53 not less than 47 61 not less than 51
70 70-80
Ductility, cm 64 at least 55 31 at least 45 12 at least 3.0Brittle point, ° � -16 not more than
-15-10 not more than
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Flash point,° � 225 230 232 230 239 not less than 240
Name of the indicators Sample � 1 BD 70/30 Sample � 2 BD 90/10 Sample � 3Penetration at 25 ° � , 0.1 mm 32 21-40 12 5-20 7Softening point, ° � 72 70-80 85 90-105 92Ductility, cm 18 at least 3.0 4.0 at least 1.0 2.1Flash point, ° � 238 not less than 240 235 not less than
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Physical and mechanical characteristics of bitumens , obtained at a temperature of 270 � �
Physical and mechanical characteristics of bitumens , obtained at a temperature of 230 � �
Physical and mechanical characteristics of bitumens , obtained at a temperature of 240 � �
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PREPARATION OF ASPHALT CONCRETE WITH OIL SANDS
Name of indicatorsContent of oil sands in asphalt mix Basic requirements for the ST
RK 1225-200328 % 47 % 60 %Medium density, g/cm3 2.29 2.30 2.22 not rated
Water saturation, % 6.1 2.4 2.6 for the dense type of B, V, Gfrom 1.5 to 4.0
for the porous type from 5 to 10Compression strength, MP� , at 20° � 8.7 4.6 4.2
not less than 2.5 for � 1not less than 2.2 for � 2not less than 2.0 for � 3
Compression strength, MP� , at 20° � water-saturated
6.5 4.7 4.8 not rated
Compression strength, MP� , at 50° �
2.1 1.1 0.6 not less than 1.3 for B � 1not less than 1.2 for B � 2not less than 1.1 for B � 3
not less than 0.7 for the porous � 1not less than 0.5 for the porous M2
Compression strength, MP� , at 0° �
14.9 13.0 5.1 no more than 13.0for the porous not rated
Water resistance 1.0 0.75 0.64 not less than 0.85 for the dense � 1not less than 0.80 for the dense � 2not less than 0.7 for the porous � 1not less than 0.6 for the porous � 2
Water resistance with prolongedwater saturation
0.55 0.78 0.43 not less than 0.75 for the dense � 1not less than 0.7 for the dense � 2not less than 0.6 for the porous � 1not less than 0.5 for the porous � 2
Adhesion of binder to the mineralportion of the mixture
- - - braves (at least ¾ surface of the mixture covered with foil binder)
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PRODUCTION OF RUBBER BITUMEN COMPOSITION MATERIALS
Optical microscope images of rubber crumb
SEM images of rubber crumb
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Name of indicators Rubber-oil ratio
Rubber-oil percentage in bitumen Methods of testing 10 wt% 15 wt% 20 wt% 25 wt%
Penetrationat 25 °C, 0.1mm
R:O=1:1 90 127 126 170According to standard 11501R:O=3:2 75 130 109 150
Softeningpoint, °C
R:O=1:1 51 46 50 48According to standard 11506R:O=3:2 58 47 55 46
Ductility at 25 °C, cm R:O=1:1 25 19 26,5 22According to standard 11505R:O=3:2 19 31 17 25
Penetration index R:O=1:1 0.6 0.3 1.5 2.2 By empirical formula R:O=3:2 1.7 0.7 2.2 0.9
Changing of softening temperature after heated, °C
R:O=1:1 5 5 5 5 According to standard 18180R:O=3:2 4 5 5 6
Standard accordance R:O=1:1 RBC 90/130 RBC 130/200 According to R RK 218-76-2008R:O=3:2
RBC 60/90
RBC 90/130 RBC 130/200
Physical and mechanical characteristics of RBC with rubber crumb (less than 0.6 mm)
Names of indicators Rubber-oil ratio
Rubber-oil percentage in bitumen Method of testing 10 wt% 15 wt% 20 wt% 25 wt%
Penetration at 25°C, 0.1mm
R:O=1:1 67 71 90 91 According to standard 11501R:O=3:2 87 160 195 108
Softening point, °C R:O=1:1 50 59 51 58 According to standard 11506R:O=3:2 53 45 45 52
Ductilityat cm R:O=1:1 12 13.5 12.5 11.5 According to standard 11505R:O=3:2 17 20 18 13
Penetration index R:O=1:1 -0.5 1.8 0.6 2.3 By empirical formula R:O=3:2 1.0 0.9 1.8 1.5
Changing of softening temperature after heated, °C
R:O=1:1 4 4 5 5 According to standard 18180R:O=3:2 4 6 6 5
Standard accordance R:O=1:1 RBC 60/90 According to R RK 218-76-2008R:O=3:2 RBC 60/90 RBC 130/200 RBC 130/200
Physical and mechanical characteristics of RBC with rubber crumb (0.6-1 mm)
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Dependence of penetration on the rubber-oil content of RBCRubber-oil ratio: 1 1:2, 2 2:3, 3 1:1, 4 3:2
Dependence of softening point on the rubber-oil content of RBCRubber-oil ratio: 1 1:2, 2 2:3, 3 1:1, 4 3:2
Dependence of ductility on the rubber-oil content of RBC
Kind of modifier Penetration, 0.1mm
Softening point, ”�
Ductility, cm
Base bitumen 78 47 96
Rubber crumb, 10 wt.%
52 57 7
Rubber-oil mixture, 20 wt.%
126 50 26,5
Properties comparison of crumb rubber modified bitumen with base bitumen
PROPERTIES COMPARISON OF ACTIVATED CRUMB RUBBER MOD IFIED BITUMENS
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MICROSCOPIC STUDY OF RUBBER -BITUMEN COMPOUNDS
Optical microscopic image of RBC
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Physical and mechanical characteristics of rubber-asphalt with rubber crumb
(less than 0.6 mm)
Physical and mechanical characteristics of rubber-asphalt with no rubber crumb
(0.6-1.0 mm)Name of indicators Asphalt mix with rubber crumb Standard
requirements
� 1RBC R:O=5:620 wt.%
� 2RBC R:O=1:120 wt.%
� 3RBC R:O=3:210 wt.%
� 4 RBC R:O=3:220 wt.%
Medium density,g/cm3
2.34 2.33 2.35 2.33 Not rated
Water saturation, % 0.7 0.5 0.4 0.7 For the dense type from 1,5 to 4,0
Compression strength, MPa, at 20 ° �water-saturated
2.4 2.0 3.1 2.1 Not rated
Compressionstrength, MPa, at 50° �
0.7 0.8 0.9 1.1 For the dense type, MPa, not less than: � 1.5B 1.8
Compressionstrength, MPa, at 0° �
5.7 2.3 7.6 6.9 No more than 13.0 for the A, B type
of asphalt concrete
Water resistance 0.89 0.83 0.97 0.89 Not less than 0.9
water resistant withprolonged watersaturation
0.85 0.92 0.94 0.90 Not less than 0.8
Name of indicators Asphalt mix with rubber crumb
Standard requirements
� 1 RBC
R:O=5:6 25 wt.%
� 2 RBC
R:O=1:115 wt.%
� 3 RBC
R:O=3:220 wt.%
Medium density, g/cm3 2.30 2.31 2.28 Not rated
Water saturation, % 1.3 2.4 3.0 For the dense type from 1.5 to 4.0
Compression strength, MPa, at 20 ° �water-saturated
1.5 2.3 2.1 Not rated
Compression strength,MPa, at 50° �
0.6 0.8 0.8 For the dense type, MPa, not less than:
� 1.5B 1.8
Compression strength,MPa, at 0° �
3.6 6.8 6.7 No more than 13.0 for the A, B type of
asphalt concrete
Water resistance 0.88 0.96 0.78 Not less than 0.9
water resistant withprolonged watersaturation
1.0 1.2 0.93 Not less than 0.8
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GasesBitumenBND60/90
Bitumen with rubbercrumb of 7 wt.%
Bitumen withrubber-oil mixtureof 20 %, 1:1
Gas concentration, mlMethane 1.4×10-6 3.2×10-6 13.3×10-6
Ethan 0.4×10-6 0.6×10-6 2.6×10-6
Ethylene 0.2×10-6 0.7×10-6 1.3×10-6
Propane 0.7×10-6 0.6×10-6 2.1×10-6
Propylene 0.4×10-6 0.4×10-6 4.1×10-6
Isobutane 0.1×10-6 0.1×10-6 0.3×10-6
N-butane 0.3×10-6 0.3×10-6 0.7×10-6
Gases Stirring crushedstone, sand andmineral powder
Stirring crushedstone, sand andmineral powder withRBC
Gas concentration, mlMethane 2.1×10-6 -Ethan 0.5×10-6 1.8×10-6
Ethylene 2.8×10-6 0.9×10-6
Propane 1.0×10-6 1.1×10-6
Propylene 14.2×10-6 10.0×10-6
Isobutane 0.1×10-6 0.2×10-6
N-butane 0.3×10-6 0.5×10-6
Asphalt pavement with rubber crumb on the experimental plot of
the Institute of Combustion Problems
The concentrations of gasesallocated in the preparation of rubber-bitumen compounds
The concentrations of gases, allocated in the preparation of asphalt mixtures
GAS COMPOSITION, WHEN PREPARATION OF RBC AND AC BAS ED ON RC
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CONCLUSION1. Organic part of oil sand was carried out by extraction methods. Physicochemical properties of natural bitumen from oil sand was studied.2. Extracted natural bitumen oxidized and produced bitumen at lower temperature and short time. The optimum content of the oil sands in the asphalt concrete were concluded at 28 and 47 mass %.3. Synthetic oil were produced from oil sand by thermal processing of oil sand and Catalytic hydrogenation of natural bitumen. At the process active coal supported nanocatalyst were used. 4. It was precipitated asphaltene from natural bitumen of oil sand. Microscopic images showed that the asphaltenes have a medium-ordered structure, the main component of the surface is represented by amorphous carbon and asphaltene particle size around 40-50 nm. After heating asphalteneat high temperature and under inert gas 5.12 nm sized carbon composition materials were formed. 5. It is established that the optimal composition of rubber-oil at a ratio of 1:1 and 3:2 and introduction them to bitumen in optimal amount of 15-25 wt.%. It was prepared asphalt mixtures based on rubber-binders, which are physical and mechanical properties comply with the requirements of the standard.6. Microscopic analyses of bitumen materials were concluded as following:during the preparation of rubber and bitumen, the bitumen aggregation almost covered the swelled rubber crumb when heating and stirring the mixture. It is important for react rubber crumb with bitumen; Sand grains of oil sand surrounded by natural bitumen and very thin layer of wetted water, keeping it separate each other. This phenomenon is more useful at processing and developing of oil sand.
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Thank you for your attention !!!